Disparate data store services catalogued for unified access

ABSTRACT

A data store catalogue service model is disclosed for exposing disparate data store services to clients without requiring explicit knowledge on how to interact with each disparate service. The data store catalogue service model may maintain interaction details for each data store service that clients may access for interacting with those services. The model may also maintain metadata that may describe the different types of services available for access by clients, the data types used by those services, how to access the data provided by the services, and how to communicate semantically with the services for accessing the service&#39;s data. Additionally, the data store may include metadata that enables clients to interact with one or more registered data stores in a number of ways, such as for discovering registered data store services, entities, classes, and/or any associations between related entities within the same or among disparate services.

PRIORITY CLAIM

This application is a Continuation-In-Part under 35 U.S.C. §120 of U.S.patent application Ser. No. 11/165,748 filed on Jun. 23, 2005, which isincorporated by reference herein in its entirety.

TECHNICAL FIELD

The disclosed technology relates generally to data processing and, moreparticularly, to enabling clients to discover and interact with one ormore entities in one or more registered data store services in a numberof ways using one or more uniform access interfaces.

BACKGROUND

Organizations may often use or desire using line-of-business (“LOB”)systems to carry out daily operations, for example. Further, manyorganizations may implement a number of different types of LOB systemsto perform particular tasks, such as SAP, SIEBLE and other types of LOBsystems. While these LOB systems may potentially offer a great deal ofbenefits, at the same time organizations may find themselvesunexpectedly devoting other resources just to be able to utilize thesesystems.

For instance, an organization's developer(s) may need to familiarizethemselves with the semantics for interacting with each type ofdifferent LOB system. While SAP and SIEBLE were mentioned above asexamples of LOB systems, any one organization may desire employing othertypes of LOB systems. Moreover, organizations may desire utilizingseveral instantiations of a particular LOB system (e.g., SAP) eachdedicated to handling particular business related operations in additionto those other types of systems mentioned above. As a result, still moreof an organization's resources would need to be invested to be able toleverage those systems.

SUMMARY

The following presents a simplified summary of the subject matterdisclosed in further detail herein to provide a basic understanding tothe reader. This summary is not an exhaustive or limiting overview ofthe disclosed subject matter, and is not provided for identifying keyand/or critical elements of the subject matter or delineating the scopeof the claimed subject matter. Thus, the scope of the claimed subjectmatter should not be limited in any way by this summary. Its solepurpose is to present some of the concepts in a simplified form as anintroduction to the more detailed description that is presented later.

The present example provides a data store catalogue service model thatmay be implemented as a data store catalogue service system 56 in themanner described herein with regard to FIGS. 5 and 7. The data storecatalogue service model may be implemented to expose one or moredisparate data store related services to one or more clients withoutrequiring the clients to have explicit knowledge on how to interact witheach or any of the disparate services. The data store catalogue servicesystem 56 may maintain interaction details for the data store relatedservices, which the clients may access for interacting with thoseservices. In particular, the data store catalogue service system 56 mayimplement a metadata data store 50 that may describe the different typesof services available for accessing by clients, the data types used bythose services, how to access the data provided by the services, and howto communicate semantically with the services for accessing theservice's data. The clients may issue one or more requests to accessthose particular services defined in the metadata data store via one ormore application program interfaces (“APIs”) exposed to the clients by adata store service catalogue system in a unified manner.

Many of the attendant features will be more readily appreciated as thesame becomes better understood by reference to the following detaileddescription considered in connection with the accompanying drawings.

DESCRIPTION OF THE DRAWINGS

The foregoing summary will become more readily appreciated as the samebecomes better understood by reference to the following detaileddescription, when taken in conjunction with the accompanying drawings,wherein:

FIG. 1 is a block diagram of at least a portion of a system forregistering data store services in cataloguing systems to provideclients with access to disparate data store services in a unifiedmanner;

FIG. 2 is a block diagram of an application server that may be used inthe system illustrated in FIG. 1;

FIG. 3 is a block diagram of a computer that may be used in the systemillustrated in FIG. 1;

FIG. 4 is a block diagram of a client service access portal applicationand a data store service catalogue system that may be implemented in thesystem illustrated in FIG. 1;

FIG. 5 is a diagram of at least a portion of a metadata data store thatmay be implemented in the data store service catalogue systemillustrated in FIG. 4;

FIG. 6 is a functional block diagram illustrating at least a portion ofa process for registering data store services in cataloguing systems toprovide clients with access to disparate data store services in aunified manner;

FIG. 7 is a flow chart of a process for registering data store servicesin cataloguing systems to provide clients with access to disparate datastore services in a unified manner;

FIG. 8 is a flow chart of a process for enabling clients to discover andinteract with one or more entities in one or more registered data storeservices; and

FIGS. 9-16 are diagrams one or more other portions of a metadata datastore that may be implemented in the data store service catalogue systemillustrated in FIG. 4 that may be used in accordance with the processfor enabling clients to discover and interact with one or more entitiesin one or more registered data store services.

Like reference numerals are used to designate like parts in theaccompanying drawings.

DETAILED DESCRIPTION

The detailed description provided below in connection with the appendeddrawings is intended as a description of the present examples and is notintended to represent the only forms in which the present example may beconstructed or utilized. The description sets forth the functions of theexample and the sequence of steps for constructing and operating theexample. However, the same or equivalent functions and sequences may beaccomplished by different examples.

An exemplary data store catalogue service system 56 implemented in asystem 10 and method 100 for registering data store services incataloguing systems to provide clients with access to disparate datastore services in a unified manner is generally shown in FIGS. 1, 4, 6and 7. As mentioned above earlier, organizations may often use or desireutilizing a number of different types of LOB systems to performparticular tasks, although organizations may desire implementing othertypes of software applications besides LOB systems, such as Webservices, which may involve the same resource investments for enablingan organization's client applications to use the different types ofsystems.

In particular, an organization may wind up devoting resources forfinding the different systems and identifying their purpose. Inaddition, these organizations may find themselves devoting even moreresources just to be able to programmatically access each of therespective systems' methods, such as for allowing them to develop theirown user or other types of access interfaces for accessing the systems.Unfortunately, many such systems typically involve uniquely formattedways for accessing information from each system's respective data store.For instance, unique parameters, filters and other access nuances oftenmake it difficult for organizations to develop interfaces for accessingthe various systems unless the organization's software applicationdevelopers possess intimate knowledge of each system's semantics.

Data store catalogue service system 56 may be implemented in system 10in an attempt to address at least some of the issues noted above byproviding client applications with one or more unified interfaces forinteracting with one or more disparate systems without requiringspecific knowledge of the inner workings of those systems, althoughthere may be other uses as well. Basically, data store catalogue servicesystem 56 may provide an environment where one or more disparate systemsmay be registered in one or more data stores using metadata, forexample. The metadata may define methods, parameters and/or defaultvalues for one or more of the data store services that may allow clientsto be able to interact with the registered services. As a result,application developers may be insulated from having to explicitlyprogram their applications to be able to invoke the appropriate methodcalls and to process the various types of return values produced by eachof the different types of systems.

In particular, data store catalogue service system 56 may implement ametadata data store 50 that may describe the different types of servicesavailable for accessing by clients, the data types used by thoseservices, how to access the data provided by the services, and how tocommunicate semantically with the services for accessing the service'sdata. The clients may issue one or more requests to access thoseparticular services defined in the metadata data store via one or moreapplication program interfaces (“APIs”) exposed to the clients by a datastore service catalogue system in a unified manner.

Referring now specifically to FIG. 1, an example of a suitable operatingenvironment in which system 10 may be implemented is illustrated. Asshown in FIG. 1, system 10 may generally include at least one computer32 and one or more application servers 20 that may be coupled togethervia network 80, although system 10 may include a lesser or greaternumber and other types of devices.

It should be noted, however, that FIG. 1 is not intended to suggest anylimitation as to the scope of use or functionality of the system 10.Other types of computing systems, environments, and/or configurationsthat may be suitable for use with the system 10 include, but are notlimited to, hand-held, notebook or laptop devices, multiprocessorsystems, microprocessor-based systems, programmable consumerelectronics, network PCs, minicomputers, mainframe computers,distributed computing environments that include any of the above systemsor devices, and the like.

Referring now to FIG. 2, an exemplary configuration for one or more ofthe application servers 20 is illustrated. In its most basicconfiguration, application server 20 may comprise application serverinput module 22, application server output module 24, application servercommunication module 26, application server processor module 28 andapplication server memory module 30, which may be coupled together byone or more bus systems or other communication links, althoughapplication server 20 may comprise other modules in other arrangements.Modules 22, 24, 26, 28 and 30 will now be described below with continuedreference to FIG. 2.

Application server input module 22 may comprise one or more user inputdevices, such as a keyboard and/or mouse, and any supporting hardware.Application server input module 22 may enable a user who is operatingapplication server 20 to generate and transmit signals or commands toapplication server processor module 28, although other types of userinput devices may be used.

Application server output module 24 may comprise one or more user outputdevices, such as a computer monitor (e.g., CRT, LCD or plasma display),and any supporting hardware, although other types of output devices maybe used. Application server output module 24 may present one or moreresults from application server processor module 28 executinginstructions stored in application server memory module 30 as describedin further detail herein below.

Application server communication module 26 may comprise one or morecommunication interface devices, such as wire-based (e.g., Ethernet) orwireless network adapters, and any supporting hardware, although othertypes of communication interface devices may be used, such as serialport interfaces (e.g., RS-232). Application server communication module26 may enable application server 20 to transmit data to and receive datafrom other devices via network 80, such as computer 32, althoughapplication server communication module 26 may transmit/receive datato/from other computing systems or peripherals (e.g., external memorystorage device or printer) via other communication media, such as directcable connections, for example.

Application server processor module 28 may access data and may executeinstructions stored in application server memory module 30 forcontrolling, monitoring and managing (hereinafter referred to as“operating”) application server input module 22, application serveroutput module 24, application server communication module 26 andapplication server memory module 30 as described herein, although someor all of the data and instructions may be stored in and/or executed bythe modules themselves.

Additionally, application server processor module 28 may access data andmay execute instructions stored in application server memory module 30to perform functions for implementing at least a portion of the method100 as described herein and illustrated in FIG. 7, although applicationserver processor module 28 may perform other functions, one or moreother processing devices or systems may perform some or all of thesefunctions, and application server processor module 28 may comprisecircuitry configured to perform the functions described herein.

Application server memory module 30 may comprise one or more types offixed and/or portable memory accessible by application server processormodule 28, such as ROM, RAM, SRAM, DRAM, DDRAM, hard and floppy-disks,optical disks (e.g., CDs, DVDs), magnetic tape, ferroelectric andferromagnetic memory, electrically erasable programmable read onlymemory, flash memory, charge coupled devices, smart cards, or any othertype of computer-readable media, which may be read from and/or writtento by one or more magnetic, optical, or other appropriate reading and/orwriting systems coupled to application server processor module 28 and/orone or more other processing devices or systems.

Application server memory module 30 may store at least a portion of thedata and instructions that may be accessed and/or executed byapplication server processor module 28 for operating application servercommunication module 26 and application server memory module 30,although some or all of the data and instructions may be storedelsewhere, such as in the modules themselves and/or the applicationserver processor module 28.

Application server memory module 30 in each application server 20 mayalso store one or more modules, such as data store service “A” 21 and/ordata store service “B” 23 shown in FIG. 1, although the modules may bestored elsewhere. Further, data store service “A” 21 and/or data storeservice “B” 23 may comprise an LOB system, such as SAP or SIEBLE,although data store service “A” 21 and/or data store service “B” 23 maycomprise other types of LOB systems or other types of data storeservices, such as Web services, or any other type of server application.LOB systems, such as SAP and SIEBEL, are types of enterprise or businessrelated software.

Referring to FIG. 3, in its most basic configuration, computer 32 maycomprise computer input module 34, computer output module 36, computercommunication module 38, computer processor module 40, and computermemory module 42, which may be coupled together by one or more bussystems or other communication links, although computer 32 may compriseother elements in other arrangements. Modules 34, 36, 38, 40 and 42 willnow be described below with continued reference to FIG. 4.

Computer input module 34 may comprise one or more user input devices,such as a keyboard and/or mouse, and any supporting hardware. Computerinput module 34 may enable a user who is operating computer 32 togenerate and transmit signals or commands to computer processor module40, such as commands for operating client service access portalapplication 44, although other types of user input devices may be used.

Computer output module 36 may comprise one or more user output devices,such as a computer monitor (e.g., CRT, LCD or plasma display), and anysupporting hardware, although other types of output devices may be used.Computer output module 36 may present one or more results from computerprocessor module 40 executing instructions stored in computer memorymodule 42 as described in further detail herein below.

Computer communication module 38 may comprise one or more communicationinterface devices, such as a network interface card (e.g., Ethernet cardor wireless network card), and any supporting hardware, although othertypes of communication interface devices may be used, such as a serialinterface (e.g., RS-232 interface). Computer communication module 38 mayenable computer 32 to transmit data to or receive data from otherdevices via network 80, such as one or more application servers 20,although computer communication module 38 may transmit/receive datato/from other computing systems or peripherals (e.g., external memorystorage device or printer) via other communication media, such as adirect cable connection, for example.

Computer processor module 40 may access and/or may execute data andinstructions stored in computer memory module 42 for operating computerinput module 34, computer output module 36, computer communicationmodule 38 and computer memory module 42 as described herein, althoughsome or all of the data and instructions may be stored in and/orexecuted by the modules themselves.

Additionally, computer processor module 40 may access and/or may executedata and instructions stored in computer memory module 42 to performfunctions for implementing at least a portion of the method 100described with reference to FIG. 7, although computer processor module40 may perform other functions, one or more other processing devices orsystems may perform some or all of these functions, and computerprocessor module 40 may comprise circuitry configured to perform thefunctions described herein.

Computer memory module 42 may comprise the same types of memory storagedevices as application server memory module 30 in application server 20,although other types of computer-readable media may be used, which maybe read from and/or written to by one or more magnetic, optical, orother appropriate reading and/or writing systems coupled to computerprocessor module 40 and/or one or more other processing devices orsystems.

Computer memory module 42 may store at least a portion of the data andinstructions that may be accessed and/or executed by computer processormodule 40 for operating computer input module 34, computer output module36, computer communication module 38, computer processor module 40 andcomputer memory module 42, although some or all of the data andinstructions may be stored elsewhere, such as in the modules themselvesand/or the computer processor module 40.

Computer memory module 42 may also store client service access portalapplication 44 and data store service catalogue system 46, although theapplication 44 and system 46 may be stored elsewhere. Client serviceaccess portal application 44 and data store service catalogue system 46may comprise data and/or instructions written in a number of programminglanguages, which when accessed and/or executed by computer processormodule 40, may cause computer 32 to implement at least a portion of themethod 100 described with reference to FIG. 7, although the modules maycomprise circuitry configured to operate in the manner described herein.

Client service access portal application 44 may access metadata accessAPI 52 to interact with at least one of data store service “A” 21 ordata store service “B” 23 implemented on one or more servers 20 as willbe described in further detail herein below. Data store servicecatalogue system 46 may comprise metadata access API 52, metadata datastore 50, and service execution API 54, although system 56 may compriseother components in other arrangements. Metadata data store 50 maycomprise one or more metadata entries, which may define one or moremethods, parameters associated with the methods, and other informationrelated to the semantics for interacting with one or more of data storeservices “A” 21 and/or “B” 23 that may be implemented on servers 20,although data store 50 may comprise one or more other metadata entriesfor defining the semantics for interacting with other services or othertypes of entries besides metadata entries.

Metadata access API 52 may comprise one or more application programinterfaces that may accept one or more methods calls and/or parametersfor accessing one or more entities that may be defined in metadata datastore 50 and which may correspond to one or more entities associatedwith one or more of data store services “A” 21 and/or “B” 23 that may beimplemented on one or more application servers 20.

Service execution API 54 may comprise one or more application programinterfaces that may accept one or more methods calls and/or parametersfrom data store service catalogue system 56 based on the metadataobtained from metadata data store 50 for a particular service 21 and/or23 that may be implemented on servers 20. Further, service execution API54 may comprise one or more adapter shims 56 for each of the services 21and/or 23 that may be implemented on servers 20, such as adapter shim“A” 56A and adapter shim “B” 56B shown in FIG. 7. Adapter shims 56 maycomprise low level information that service execution API 54 may use tocommunicate with data store service interface adapters 60A, 60B shown inFIG. 6, such as information that may specify how to invoke one or moremethods associated with data store services 21 and/or 23 that may beexposed by adapter 70. An example includes an SAP NET Connector softwarecomponent where data store services 21 and/or 23 may comprise an SAP LOBservice, for instance.

It should be appreciated that client service access portal application44, data store service catalogue system 46 and their associated modulesas described above are depicted in the manner shown in FIG. 4 for easeof description and exemplary purposes only. However, client serviceaccess portal application 44 and data store service catalogue system 46may comprise a fewer or greater number and other types of modules thatmay reside on one or more other computing systems or devices.

Referring back to FIG. 1, network 80 may comprise a Wide Area Network(“WAN”), such as the Internet, although a variety of other communicationsystems and/or methods using appropriate protocols may be used,including other types of WANs, local area networks, wireless networks,phone lines, serial and/or parallel bus cables, coaxial cables, andcombinations thereof.

An example of a method 100 for registering a data store service “A” 21and a data store service “B” 23 will now be described with reference toFIGS. 6-7 in the context of being carried out by the system 10 describedabove in connection with FIGS. 1-5.

Referring to FIG. 7 and beginning at step 110, by way of example only, auser of computer 32 may operate client service access portal application44 using the computer's input system, in conjunction with operation ofthe computer processor module 40, computer memory module 42 and computercommunication module 38, to identify which services (e.g., data storeservice “A” 21, data store service “B” 23) may be available in network80 for registration with data store service catalogue system 56.

At step 120, the user of computer 32, such as a developer, may determinewhich one or more methods may be used by each data store serviceidentified above at step 110.

At step 130, the user may identify one or more parameters that may beused for each method identified above at step 120.

At step 140, the user may populate metadata data store metadata datastore 50 in the data store service catalogue system 46 with the methodsand associated parameters for each data store service to register eachservice, an example of which is illustrated in FIG. 5. It should benoted that the exemplary parameters and manner in which the tables areorganized in FIG. 5 are provided for ease of illustration anddescriptive purposes only, as the particular parameters provided and themanner in which they are organized may vary depending on the particularenvironment they are employed. Further, the examples provided in FIG. 5may include more or less information for each parameter as required forthe particular data services each parameter may be associated with.

At step 150, client service access portal application 44 may provide tagvalues for associated parameters, such as whether the particularparameter represents an identifier or a filter, although otherparameters may be provided. Further, client service access portalapplication 44 may provide a default value for one or more of theassociated parameters included in metadata data store 50. Any defaultvalue provided for a particular parameter may depend on the particulardata store service that the parameter may be associated with, such asdata store service “A” 21 or data store service “B” 23, as well as thetype of parameter it is provided for as identified by the parameter's“Tag” entry in the metadata data store 50. shown in FIG. 5.

For instance, a first default value 192 shown in FIG. 5 may specify aparticular format for specifying the format in which date values may befiltered when sent back to the client application 44, for example. As anexample, the default value 192 shown in FIG. 5 may specify “[Dateformat=xx/xx/xxxx],” although any other values may be provided. Upondefining each of the tag values and any default values for theparameters, the method 100 may end.

An example of a method 200 for enabling clients to discover and interactwith one or more entities in one or more registered data store services,such as data store service “A” 21 and a data store service “B” 23, willnow be described with reference to FIGS. 8-16 in the context of beingcarried out by the system 10 described above in connection with FIGS.1-7.

Referring to FIG. 8 and beginning at step 210, by way of example only, auser of computer 32, such as an organization's developer, may operateclient service access portal application 44 using the computer's inputsystem, in conjunction with operation of the computer processor module40, computer memory module 42 and computer communication module 38, toaccess the data store service catalogue system 46 for a number ofreasons, such as for querying the module 38 to identify which services(e.g., data store service “A” 21, data store service “B” 23) may beregistered in metadata data store 50, for instance.

Further, a developer may desire querying the module 38 to identify whichdata store services may be registered in metadata data store 50 so thatthe developer can develop code that may enable one or more other clientcomputers on the network 80 to access the data store services in aparticular manner. However, the developer may not be well versed incoding for one or more of the various data store services that may beregistered within the metadata data store 50 for which providing accessto the one or more other clients may be desired. Thus, the metadata thatmay be maintained in metadata data store 50 for each registered datastore service may enable the developer with limited coding knowledge todevelop code for leveraging one or more of the registered data services.

Further, the metadata data store 50 may be populated with metadatadescribing one or more services (e.g., data store service “A” 21, datastore service “B” 23) registered therein using any number of methods,such as the process described above in connection with method 100, forexample, although other methods could be used. For instance, thedeveloper may provide the following line of code to the client serviceaccess portal application 44, which in turn would send the code to thedata store service catalogue system 46 for further processing asdescribed herein:

-   -   IList e=System.GetSystem;

The Systeminstance.GetSysteminstances( ) method may be made available tothe client service access portal application 44 by the data storeservice catalogue system 46 via the metadata access API, for example.Responsive to receiving the above-identified from the client application44, the data store service catalogue system 46 may search for anyregistered data store services in the metadata data store 50.

Referring to FIG. 9, an exemplary portion of information that may bemaintained in the metadata data store 50 to represent one or moreregistered instances of data store services is illustrated as a systeminstances 212 table. It should be appreciated that the informationillustrated in FIG. 9 is provided for ease of illustration anddescriptive purposes only. As shown in FIG. 9, one or more data storeservice instances are identified under a “Service ID” column and/or a“Service Name” column.

Further, a “Service Type” column in the system instances 212 table mayidentify the particular type of data store service (e.g., SAP, Sieble).For instance, system instances 212 table shows that there are tworegistered data store services of “Service Type”=“Service Type 1,” whichrepresents two instances of the same type of data store service. Whenthe data store service catalogue system 46 identifies the data storeservices registered in the metadata data store 50, a reference to alisting or enumeration of the services may be made available to theclient service access portal application 44, and hence the developer,for example.

At step 220, the developer operating the client service access portalapplication 44 running on computer 32 may desire determining which“entities” may be associated with and/or exposed by one or more of theregistered data store service instances that may have been identifiedabove at step 210 via one or more API's exposed by those services, forexample. An entity may represent data and/or one or more methods orlogic defined within the registered data store service's nativeenvironment that can be implemented by data store service cataloguesystem 56. For instance, an SAP data store service may define a“Customer” entity and an “Employee” entity that may be associated withone or more methods or logic, for instance, although other entities maybe defined. Further, the one or more methods, associated parametersand/or default parameter values that may be associated with each entityassociated with a particular data store service instance may be definedby the data store service catalogue system 46 in the metadata data store50, such as in the exemplary metadata provided in FIG. 5 earlier, forinstance.

For a specific example, the developer may provide the following line ofcode to the client service access portal application 44, which in turnwould send the code to the data store service catalogue system 46 forfurther processing as described herein:

-   -   IList e=System.GetSystem.    -   GetClasses;

Referring to FIG. 10, an exemplary portion of information that may bemaintained in the metadata data store 50 to represent one or moreentities associated with each of the one or more registered data storeservices identified above at step 210 is illustrated as an entitiesinstances 222 table. It should be appreciated that the informationillustrated in FIG. 10 is provided for ease of illustration anddescriptive purposes only. As shown in FIG. 10, one or more data storeservice instances are identified under an “Entity ID” column. Further, a“System Identifier” column in the entities instances 222 tableidentifies which of the one or more registered data store servicesidentified above at step 210 the particular entity may be associatedwith.

Referring back to the example provided above in FIG. 9, since there maybe two different instances of the same registered data store servicesidentified above at step 210, each service instance may be associatedwith the same types of entities (e.g., entity types 1 and 2), althougheach entity may be defined within metadata data store 50 differently andreferred to independently, if desired, for example.

Referring to FIG. 11, another exemplary portion of information that maybe maintained in the metadata data store 50 is illustrated as an entitymethods 232 table, which may identify one or more methods associatedwith each of the entities associated with the one or more registereddata store services shown in FIG. 10 discussed above. Again, theinformation illustrated in FIG. 11 is provided for ease of illustrationand descriptive purposes only, and the methods identified in the entitymethods table 232 may be described or further annotated in the metadatadata store 50 in the same manner shown and described above in connectionwith FIG. 5, although the methods may be defined in other ways.

When the data store service catalogue system 46 identifies the one ormore entities and one or more methods associated with each of the one ormore data store services registered in the metadata data store 50, areference to a listing or enumeration of these entities and associatedmethods may be made available to the client service access portalapplication 44, and hence the developer, for example. Furthermore, eachof the identified entities may support a number of methods, includingbut not limited to an instantiate( ) method for instantiating aparticular entity, one or more find( ) and/or findSpecific methods forfinding one or more instances of entities in one or more identified datastore services registered in the metadata data store 50, one or moregetAssociation( ) methods for identifying one or more associations amongone or more entities defined in the metadata data store 50, one or moregetExternalAssociation( ) methods for identifying one or moreassociations among one or more corresponding entities among one or moredifferent data store services registered in the metadata data store 50,and/or GetViews methods.

At step 230, the developer operating the client service access portalapplication 44 running on computer 32 may desire determining whether anyof the entities that may have been identified above at step 220 for eachof the registered data store services that may have identified above atstep 210 are related to each other. The relationships between the one ormore entities may be described in the metadata data store 50 and may bebased on one or more relationships defined in the native environment ofthe particular data store service that the entity may be associatedwith, for instance, although the metadata data store 50 may beextensible to define non-native entity associates for particularimplementation environments, if desired. For example, an SAP data storeservice may define a relationship between a “Customer” entity and a“Sales Order” entity.

For a specific example, the developer may provide the following line ofcode to the client service access portal application 44 to enableretrieving any defined associations between the entities in one or moreparticular data store services, which in turn would send the code to thedata store service catalogue system 46 for further processing asdescribed herein:

-   -   IList e=Systeminstance.GetAssociations.

Referring to FIG. 12, an exemplary portion of information that may bemaintained in the metadata data store 50 to represent one or moreassociations between one or more entities associated with each of theone or more registered data store services identified above at step 210is illustrated as internal entities associations 242 table. It should beappreciated that the information illustrated in FIG. 12 is provided forease of illustration and descriptive purposes only. As shown in FIG. 12,one or more entity associations are identified under an “Association ID”column. Further, an “Association” column in the internal entitiesassociations 242 table identifies which of the one or more entities areassociated. Finally, an “Associated Methods” column in the internalentities associations 242 identifies one or more associated methods maybe called to retrieve information representing the related entities.

For instance, if the “First Entity” represents a “Customer” and the“Second Entity” represents “Sales Orders” in an SAP data store serviceenvironment, then data store service catalogue system 56 would implementthe appropriate SAP code that ay be defined in the metadata data store50 to obtain “Sales Order” information for each “Customer” entitymaintained by the SAP service, for example. When the data store servicecatalogue system 46 identifies any associations or relationships amongthe one or more entities that may be defined in the metadata data store50, a reference to a listing or enumeration of these entity associationsmay be made available to the client service access portal application44, and hence the developer, for example.

At step 240, the developer operating the client service access portalapplication 44 running on computer 32 may desire determining whether anyof the entities that may have been identified above at step 220 for eachof the registered data store services that may have identified above atstep 210 are related to any other corresponding entities in one or moredifferent data store services that may have been identified above atstep 210. For instance, the developer may desire determining and/orleveraging the correspondence between SAP data store service “Customers”and any corresponding Sieble data store service “Customers,” forexample.

The relationships between the one or more corresponding entities in oneor more different data store services may be described in the metadatadata store 50. However, these corresponding relationships often may notbe defined in the native environment of the particular data storeservices that the corresponding entities may be associated with and thusthis identifying these types of relationships may prove utility to thedeveloper, for instance. For a specific example, the developer mayprovide the following line of code to the client service access portalapplication 44 to enable retrieving any defined associations between theentities in one or more particular data store services, which in turnwould send the code to the data store service catalogue system 46 forfurther processing as described herein:

-   -   IList e=Systeminstance.GetExternalAssociations.

Referring to FIG. 13, an exemplary portion of information that may bemaintained in the metadata data store 50 to represent one or moreexternal associations between one or more corresponding entities in oneor more different data store services identified above at step 210 isillustrated as external entity associations 252 table. It should beappreciated that the information illustrated in FIG. 13 is provided forease of illustration and descriptive purposes only. As shown in FIG. 13,one or more entity associations are identified under an “ExternalAssociation ID” column.

Further, a “First Association” column in the external entitiesassociations 252 table identifies which of the one or more entities froma first data store services may have an external association. Moreover,a “Second Association” column in the external entities associations 252table identifies another one or more of the entities from a second datastore service that may have an external association with the entityidentified under the “First Association” in the same row. For instance,the “First Entity” may represent a “Customer” entity in an SAP datastore service environment and the “Second Entity” may represents acorresponding “Customer” in a Sieble data store service environment.

Referring to FIG. 14, another exemplary portion of information that maybe maintained in the metadata data store 50 is shown as external entityassociation instance mappings 254 in FIG. 14 and may describe one ormore instances of the associations shown in FIG. 13, for example. Whenthe data store service catalogue system 46 identifies any associationsor relationships among the one or more entities that may be defined inthe metadata data store 50, a reference to a listing or enumeration ofthese external entity associations may be made available to the clientservice access portal application 44.

At step 250, the developer operating the client service access portalapplication 44 running on computer 32 may desire specifying whichproperties or fields associated with a particular entity may be outputand/or provided to clients that a client data service application may becoded for accessing by the clients. For instance, a “Customer” entity inan SAP data service environment may be associated with over 250properties. Thus, the developer may desire limited the number of fieldsthat may be displayed to clients to just a few relevant fields that maybe appropriate in a particular environment, for example.

For a specific example, the developer may provide the following line ofcode to the client service access portal application 44 to enable usingone or more predefined “views” that may be defined in the metadata datastore 50, which in turn would send the code to the data store servicecatalogue system 46 for further processing as described herein:

-   -   System.GetViews.ViewName.

Referring to FIG. 15, an exemplary portion of information that may bemaintained in the metadata data store 50 to represent one or moreavailable views that may be defined in the metadata data store 50 isillustrated as views 262 table. It should be appreciated that theinformation illustrated in FIG. 13 is provided for ease of illustrationand descriptive purposes only. As shown in FIG. 15, one or more viewsare identified under “View ID” and “View Name” columns. Further, a “ViewType” column in the views 262 table identifies the particular type ofview.

Referring to FIG. 16, another exemplary portion of information that maybe maintained in the metadata data store 50 is shown as view definitions264 table and may describe properties associated with one or more fieldsdefined for each field type defined in the views 262 table shown in FIG.15, for example. Thus, one or more views may be called for particularinstances to allow the developer to manipulate which portions ofinformation associated with one or more entities may be returned and/orpresented.

It should be appreciated that steps 210-250 may be performed in anyparticular order and do not need to be performed in the manner depictedin FIG. 8. If the developer has input all desired portions of code inthe manner described in one or more steps 210-250 the method 200 mayend, although one or more portions may be repeated as desired.

It should be appreciated that while application server memory module 30and computer memory module 42 illustrated in FIGS. 2 and 3,respectively, have been described above as comprising computer storagemedia, the memory modules 30 and 42 should be broadly interpreted tocover communication media as well. Communication media may embodycomputer-readable instructions, data structures, program modules, orother data in a modulated data signal, such as a carrier wave or othertransport mechanism, and includes any information delivery media. Theterm “modulated data signal” means a signal that has one or more of itscharacteristics set or changed in such a manner as to encode informationin the signal. By way of example only, communication media includeswired media, such as a wired network or direct-wired connection, andwireless media, such as acoustic, RF, infrared, other wireless media,and combinations thereof.

Further, while the present examples are described and illustrated hereinas being implemented in a data store catalogue service system 56, thesystem 56 described is provided as an example and not a limitation. Asthose skilled in the art will appreciate, the present examples aresuitable for application in a variety of different types of data storecatalogue service systems 56 systems.

Those skilled in the art will realize that storage devices utilized tostore program instructions can be distributed across a network. Forexample a remote computer may store an example of the process describedas software. A local or terminal computer may access the remote computerand download a part or all of the software to run the program.Alternatively the local computer may download pieces of the software asneeded, or distributively process by executing some softwareinstructions at the local terminal and some at the remote computer (orcomputer network). Those skilled in the art will also realize that byutilizing conventional techniques known to those skilled in the art thatall, or a portion of the software instructions may be carried out by adedicated circuit, such as a DSP, programmable logic array, or the like.

Further, while particular examples have been described, alternatives,modifications, variations, improvements, and substantial equivalentsthat are or may be presently unforeseen may arise to applicants orothers skilled in the art. Accordingly, the appended claims as filed,and as they may be amended, are intended to embrace all suchalternatives, modifications, variations, improvements, and substantialequivalents. Further, the recited order of processing elements orsequences, or the use of numbers, letters, or other designationstherefore, is not intended to limit the claimed processes to any orderexcept as may be specified in the claims.

1. At least one computer-readable medium having at least one instructionstored thereon, which when executed by at least one processing system inconjunction with at least one application program, causes the at leastone application program to access metadata maintained for one or moreregistered data store services, the at least one medium comprising atleast one instruction for: at least one first parameter in an accessinterface for requesting at least a portion of the metadata describingthe one or more registered data store services; and at least one secondparameter in the unified access interface for providing the requestedmetadata describing the one or more registered data store services forenabling at least one requesting client to interact with the one or moredescribed data stores services without requiring data store-specificcode.
 2. The at least one medium as set forth in claim 1 wherein the atleast one first parameter comprises information requesting enumerationof the one or more registered data store services.
 3. The at least onemedium as set forth in claim 1 further comprising at least one thirdparameter for returning information identifying one or more registereddata store services.
 4. The at least one medium as set forth in claim 1wherein the at least one first parameter comprises informationrequesting enumeration of at least one of either one or more entities orone or more classes associated with the one or more registered datastore services.
 5. The at least one medium as set forth in claim 1further comprising at least one third parameter for returninginformation enumerating at least one of either one or more entities orone or more classes associated with the one or more registered datastore services.
 6. The at least one medium as set forth in claim 1wherein the at least one first parameter comprises informationrequesting enumeration of one or more related entities.
 7. The at leastone medium as set forth in claim 6 wherein the one or more relatedentities comprise at least one of either corresponding entities from anyone of the one or more registered data store services or correspondingentities from at least one of the registered data store services and atleast another one of the registered data store services.
 8. The at leastone medium as set forth in claim 1 further comprising at least one thirdparameter for returning information enumerating at least one of eitherone or more related entities from any one of the one or more registereddata store services or one or more related entities from at least one ofthe registered data store service and at least another one of theregistered data store services.
 9. The at least one medium as set forthin claim 1 wherein the at least one first parameter comprises viewinformation identifying one or more property fields of one or moreentities for which information is being requested.
 10. At least onecomputer-readable medium having at least one instruction stored thereon,which when executed by at least one processing system, causes the atleast one processing system to provide metadata maintained for one ormore registered data store services that enables interacting with theregistered data store services, the at least one medium comprising atleast one instruction for: identifying the one or more registered datastore services maintained in a data store service registrationrepository that are associated with at least one interaction requestfrom one or more clients; and providing at least a portion of themetadata associated with the one or more identified data store servicesthat can be used by the one or more clients for requesting at least oneserver to implement the at least one interaction request withoutrequiring the clients to provide data store-specific code forimplementing the at least one interaction request.
 11. The medium as setforth in claim 10 further comprising obtaining data store-specific codefor execution by the at least one server for implementing the at leastone interaction request responsive to receiving at least another portionof the metadata associated with the one or more registered data storeservices in the data store service registration repository.
 12. Themedium as set forth in claim 11 wherein the at least one server executesthe data store-specific code on behalf of the one or more clients toimplement the at least one interaction request.
 13. The medium as setforth in claim 10 wherein providing at least a portion of the metadataassociated with the one or more identified data store services furthercomprises returning information naming the one or more identified datastore services.
 14. The medium as set forth in claim 10 whereinproviding at least a portion of the metadata associated with the one ormore identified data store services further comprises returninginformation enumerating at least one of either one or more entities orone or more classes associated with the one or more identified datastore services.
 15. The medium as set forth in claim 10 whereinproviding at least a portion of the metadata associated with the one ormore identified data store services further comprises returninginformation enumerating at least one of either corresponding entitiesfrom any one of the one or more identified data store services orcorresponding entities from at least one of the identified data storeservices and at least another one of the identified data store services.16. The medium as set forth in claim 10 wherein providing at least aportion of the metadata associated with the one or more identified datastore services further comprises providing one or more property fieldsdescribing one or more entities for which information is being requestedbased upon one or more views identified by the one or more clients. 17.A method for discovering one or more objects associated with one or moreregistered data store services, the method comprising: identifying oneor more data store services registered in at least one data storerepository that are associated with at least one client request forinformation describing the one or more data store services; andproviding metadata obtained from the at least one data store repositorythat describes the one or more registered data store services.
 18. Themethod as set forth in claim 17 wherein providing metadata obtained fromthe at least one data store repository that describes the one or moreregistered data store services further comprises enumerating at leastone of either one or more instances of the registered data storeservices or one or more entities or one or more classes associated withthe one or more identified data store services.
 19. The method as setforth in claim 17 wherein providing metadata obtained from the at leastone data store repository that describes the one or more registered datastore services further comprises enumerating at least one of eithercorresponding entities from any one of the one or more registered datastore services or corresponding entities from at least one of theregistered data store services and at least another one of theregistered data store services.
 20. The method as set forth in claim 17wherein providing metadata obtained from the at least one data storerepository that describes the one or more registered data store servicesfurther comprises providing one or more property fields describing oneor more entities for which metadata is being requested based upon one ormore views identified by the one or more clients.